Sweat-permeable electronic skin with a pattern of eyes for body temperature monitoring

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY Micro and Nano Systems Letters Pub Date : 2023-09-15 DOI:10.1186/s40486-023-00170-1

Jeong Hyeon Kim, Daniel J. Joe, Han Eol Lee

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Abstract

Human-machine interface has been considered as a prominent technology for numerous smart applications due to their direct communication between humans and machines. In particular, wearable electronic skins with a free form factor have received a lot of attention due to their excellent adherence to rough and wrinkled surfaces such as human skin and internal organs. However, most of the e-skins reported to date have some disadvantages in terms of mechanical instability and accumulation of by-products at the interface between the human skin and the device. Here, we report a mechanically stable e-skin via a newly designed pattern named the “eyes.” The ingeniously designed pattern of the eyes allowed mechanical stress and strain to be dissipated more effectively than other previously reported patterns. E-skin permeability of by-product was experimentally confirmed through sweat removal tests, showing superior sweat permeability compared to conventional e-skins. Finally, the real-time monitoring of the body temperature was carried out using our resistive-type thermometer in the e-skin.

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带有眼睛图案的防汗电子皮肤，用于体温监测

人机界面由于其在人与机器之间的直接通信而被认为是许多智能应用的重要技术。特别是具有自由外形因素的可穿戴电子皮肤，由于其对人体皮肤和内部器官等粗糙和皱褶表面的良好粘附性而受到广泛关注。然而，迄今为止报道的大多数电子皮肤在人体皮肤和设备之间的界面上的机械不稳定性和副产品积累方面存在一些缺点。在这里，我们报告了一个机械稳定的电子皮肤通过一个新设计的模式命名为“眼睛”。眼睛的巧妙设计模式允许机械应力和应变比其他先前报道的模式更有效地消散。通过排汗实验证实了副产物电子皮肤的透湿性，与传统电子皮肤相比，具有更好的透湿性。最后，使用我们的电阻式体温计在电子皮肤中进行体温的实时监测。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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